EP1077459A2 - Mehrpoliger Scutzschalter mit mehreren Auslösewellen - Google Patents

Mehrpoliger Scutzschalter mit mehreren Auslösewellen Download PDF

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Publication number
EP1077459A2
EP1077459A2 EP00116259A EP00116259A EP1077459A2 EP 1077459 A2 EP1077459 A2 EP 1077459A2 EP 00116259 A EP00116259 A EP 00116259A EP 00116259 A EP00116259 A EP 00116259A EP 1077459 A2 EP1077459 A2 EP 1077459A2
Authority
EP
European Patent Office
Prior art keywords
trip bar
trip
operating mechanism
movable
disposed
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP00116259A
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English (en)
French (fr)
Other versions
EP1077459A3 (de
Inventor
Robert William Mueller
Wayne Cauldner Sumpman
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Eaton Corp
Original Assignee
Eaton Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Eaton Corp filed Critical Eaton Corp
Publication of EP1077459A2 publication Critical patent/EP1077459A2/de
Publication of EP1077459A3 publication Critical patent/EP1077459A3/de
Withdrawn legal-status Critical Current

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H71/00Details of the protective switches or relays covered by groups H01H73/00 - H01H83/00
    • H01H71/002Details of the protective switches or relays covered by groups H01H73/00 - H01H83/00 with provision for switching the neutral conductor
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H71/00Details of the protective switches or relays covered by groups H01H73/00 - H01H83/00
    • H01H71/10Operating or release mechanisms
    • H01H71/1009Interconnected mechanisms
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H71/00Details of the protective switches or relays covered by groups H01H73/00 - H01H83/00
    • H01H71/002Details of the protective switches or relays covered by groups H01H73/00 - H01H83/00 with provision for switching the neutral conductor
    • H01H2071/004Details of the protective switches or relays covered by groups H01H73/00 - H01H83/00 with provision for switching the neutral conductor with a tripping or current sensing device in the neutral wire, e.g. for third harmonics in a three fase system
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H71/00Details of the protective switches or relays covered by groups H01H73/00 - H01H83/00
    • H01H71/10Operating or release mechanisms
    • H01H71/1009Interconnected mechanisms
    • H01H2071/1036Interconnected mechanisms having provisions for four or more poles

Definitions

  • the subject matter of this invention is related generally to molded case circuit breakers and more specifically to trip bars for molded case circuit breakers.
  • Molded case circuit breakers are well known in the art as exemplified by U.S. Patent 5,910,760 issued June 8, 1999 to Malingowski et al., entitled “Circuit Breaker with Double Rate Spring” and assigned to the assignee of the present application. The foregoing is incorporated herein by reference.
  • Molded case circuit breakers include a set of separable main contacts, one of which is usually fixed and one of which is movable for automatically opening upon the occurrence of an overload or short circuit electrical current in the network which the circuit breaker is provide to protect.
  • the separable main contacts are opened as a result of the functioning of a latched operating mechanism, which is interconnectable by way of an operating handle to a region outside of the circuit breaker.
  • the operating handle may be used to trip the circuit breaker manually or to reset and close the circuit breaker contacts once they have been opened automatically.
  • the reset action is required because circuit breakers must be mechanically charged to be in a state to reopen immediately upon closure in the event that the fault which cause the tripping in the first place has not disappeared.
  • Molded case circuit breakers have trip units, which are often removably insertable in the circuit breaker case.
  • the trip unit in addition has at least two calibratable functions, one of which is generally identified as thermal tripping and the other of which is generally identified as magnetic tripping.
  • the trip unit includes a rotatable trip bar, which when rotated will actuate a latchable tripping operation within the operating mechanism to automatically open the circuit breaker contacts.
  • the rotatable trip bar is usually actuated in one of two ways. The first way is in response to what is called a magnetic tripping of the circuit breaker.
  • a bi-metal element is heated by a heater element which conducts the electrical current flowing through the separable main contacts.
  • a heater element which conducts the electrical current flowing through the separable main contacts.
  • the bi-metal element flexes or moves it impinges upon the tripping bar causing it to flex and move correspondingly, until eventually a point is reached in which the tripping bar causes the circuit breaker to unlatch and trip automatically.
  • Both the magnetic trip mechanism and the thermal trip mechanism usually require initial calibration.
  • the electrical current flows through the circuit interrupter from the load by way of a terminal collar to the load terminal of the circuit breaker and from there into the trip unit where it flows through the previously mentioned heater which in turn is serially connected to the electron magnetic member of the magnetic trip device. From there it is interconnected by way of a flexible cable to one end of a moveable contact arm and from there to the main contact on the moveable contact arm.
  • the contact arm When the contact arm is closed, it is closed upon a fixed contact which is supported usually on u-shaped conductor, which in turn is interconnected with a line terminal and there to the line terminal collar and finally to the electrical line.
  • the circuit breaker usually has an arc chute for assisting in diminishing the electrical arc drawn between the separating contacts during the opening operation for extinguishing of the arc.
  • the circuit breaker also has a slot motor arrangement, which is utilized to interact magnetically with the electrical current flowing in the opening contact arm to accelerate the opening of the contact arm magnetically.
  • the operating mechanism usually consists of a series of levers and linkages, which are interconnected with the separable main moveable contact arm, the handle mechanism, and by way of a latch arrangement with the aforementioned trip bar. Description and operation of all of the above may be found in the previous mentioned, incorporated by reference '760 patent.
  • Some molded case circuit breaker systems include four-poles of protection. Three-poles are for the phase or line currents and one-pole is for the neutral current.
  • the neutral pole protection is provided at three levels, 0% of load current; 50 to 60% of load current and 100% of load current. It would be advantageous, however, to provide a four-pole system which would provide the same levels of neutral pole protection, but which could eliminate one of the protection options.
  • An example of a three-phase trip bar system can be found in U.S. Patent 4,503,408 issued March 5, 1985 to Mrenna et al., entitled "Molded Case Circuit Breaker Apparatus Having Trip Bar With Flexible Armature Interconnection".
  • a multi pole circuit interrupter having a housing.
  • An operating mechanism is disposed within the housing.
  • Multi pole separable contacts are disposed within the housing in cooperation with the operating mechanism for being opened by the operating mechanism.
  • a trip unit is disposed within the housing in cooperation with the operating mechanism for actuating the operating mechanism for opening the separable contacts.
  • a first movable trip bar is disposed within the trip unit for moving in a first direction in response to the flow of a predetermined current in one pole of the multi pole separable contacts.
  • a second movable trip bar is disposed within the trip unit for moving in the said direction in response to the flow of a predetermined current in another pole of said multi pole separable contacts.
  • the first movable trip bar and the second movable trip bar abut for causing the second movable trip bar to be moved by the movement of the first movable trip bar in the first direction, but not for causing the first movable trip bar to be moved by the movement of the second movable trip bar means in the first direction.
  • a molded case circuit breaker or interrupter 10 having a main base 12 and primary cover 14. Attached to the primary cover 14 is a secondary cover 16. A handle 18 extends through a secondary escutcheon 22A in the secondary cover 16 and aligned primary escutcheon 22B in the primary cover 14. An operating mechanism 20 is interconnected with the handle 18 for opening and closing separable main contacts in a manner which will be described hereinafter.
  • This circuit breaker has a line end 15 and load end 17.
  • the circuit breaker or interrupter includes a removable trip unit 24. Removable trip unit 24 has an underlapping lip 24X, the purpose of which will be described hereinafter. There are also depicted a load terminal 26, a right side accessory region or pocket 27 and a left side accessory pocket or region 31.
  • Line terminal 36 is disposed to the left in Figure 2, for example, at the line end 15 of the circuit interrupter in a terminal cave or pocket 29.
  • a load terminal 26 is disposed to the right in Figure 2, for example, in a load terminal cave or pocket 29.
  • a line terminal collar 38 which will be described in more detail hereinafter, and to the right is provided a load terminal jumper-to-movable contact arm conductor 802.
  • a flexible conductor 39 Connected to conductor 802 is a flexible conductor 39, which is interconnected with movable contact arm 32 as shown schematically.
  • the load terminal jumper or frame conductor 802 is interconnected at its other end with a bi-metal heater 180, which in turn is interconnected at its other end with the terminal 26. Consequently, when the circuit interrupter separable main contacts 28 and 30 are closed upon each other, there is a complete circuit through the circuit interrupter from right to left starting with line conductor 26 through bi-metal heater 180, through load terminal jumper or frame conductor 802, through flexible conductor 39, through the movable contact arm 32, through contact 28 to contact 30 and from there through the fixed contact support or u-shaped member 34 to line terminal 36.
  • the operating mechanism includes a cradle 52, which is pivoted on one end at a cradle fixed pivoted pin 54 by way of an opening 54A in the cradle for placement of the cradle fixed pivoted pin therein.
  • the cradle includes a cradle-to-side accessory region side protrusion 55.
  • an upper toggle link 46 and a lower toggle link 48 are joined pivotally by an upper and lower toggle link pin 50.
  • There is provided a lower toggle link to movable contact arm main pivot assemble attachment pin 56 which is affixed to the movable contact arm 32 at an opening 56A.
  • a cradle to upper toggle link pivot pin 58 by which the upper toggle link 46 is placed in physical contact with the cradle 52.
  • a movable contact arm main pivot assembly 59 which movably, rotatably pivots on a pivot 60.
  • a primary frame latch 62 which operates or rotates on a primary frame latch pivot 64.
  • the primary frame latch 62 cooperates with a secondary frame latch 68, which rotates on a secondary frame latch pivot 70.
  • the operating power for the tripping operating of the circuit breaker is provided by a charged main toggle coil spring 72.
  • the main toggle coil spring is interconnected with a handle yoke 44 by way of a handle yoke attachment post 45.
  • Cradle 52 has a cradle lip 73, which is captured or held in place by the primary latch 62 when the separable main contacts 28 and 30 are closed. No tripping of the circuit breaker can take place by way of the operating mechanism until the aforementioned primary frame latch 62 has been actuated away from the cradle lip 73 in a manner which will be described hereinafter.
  • a combination secondary-frame-latch-primary-frame-latch torsion spring 78 which exerts force against both latches sufficient to cause appropriate movement thereof at the appropriate time.
  • the secondary frame latch has a laterally extending trip protrusion 79, the purpose of which will be described later hereinafter.
  • Actuation of the primary and secondary frame latches occurs exclusively by way of the utilization of a resetable trip unit trip plunger 74, which is contained entirely within the removable trip unit 24.
  • the trip unit trip plunger 74 is controlled or latched by way of a plunger latch or interference latch 75.
  • the secondary frame latch 68 is in disposition to be struck by the moving trip unit plunger abutment surface 288. Upon opening of the separable main contacts 30 and 28, an electric arc is drawn therebetween which is exposed to an arc chute 77.
  • the secondary frame latch 68 has a bottom portion 89, upon which is disposed an arcuate stop surface 90 for the primary frame latch 62. There is also provided above that arcuate stop surface and as part of the acruate stop member a latch surface 92.
  • the operating mechanism described herein may be the same as found in U.S. Patent 5,910,760 issued June 8, 1999 to Malingowski et al., entitled "Circuit Breaker with Double Rate Spring". Thought the primary and secondary frame latches are disposed within the case 12, the trip unit plunger 75 is responsible for initiating all tripping action from the trip unit 24 into the region of the secondary latch 68. Alternatively, the secondary latch 68 may be actuated by a push-to-trip button in a manner, which will be described hereinafter. The secondary latch 68 is actuated to rotate to the left as shown in Figures 2, 3 and 4, for example, in direction 81 about its pivot 70.
  • the acruate stop surface 90 for the secondary frame latch 68 rotates away from the bottom of the primary frame latch 62 until the lateral latch surface 92 rotates into a disposition to allow the bottom of the primary frame latch 62 to rotate to the right under the force of the cradle 72.
  • Patent 5,910,760 The important part of the operation with respect to this feature is the movement of the secondary frame latch point 76 in the direction opposite to direction 82, against the plunger face 288 in a manner, which will be described later hereinafter. However, if movement of the plunger face 288 in the rightward direction against its plunger spring, as will be described hereinafter, is prevented because of the latching of the plunger member 74, in a manner which will be described hereinafter, then the circuit breaker can not be reset.
  • An important feature of the invention lies in the fact that the ultimate control of the resetting of the circuit breaker and tripping of the circuit breaker can be accomplished only from the removable trip unit 24, rather than from the operating mechanism 20.
  • removable trip unit 24 includes a back or rear portion 104 and front portion 106, which are snuggly interjoined to form the complete trip unit main body or case 124.
  • the load end of the circuit breaker 17 is depicted at the front portion 106 of the trip unit 24.
  • the L-shaped cover hinges 112 are at the rear of a trip unit cover 110, which in this embodiment of the invention may be transparent.
  • a thermal adjustment dial 114 and a magnetic adjustment dial 116, respectively.
  • opening 115 is disposed the thermal adjustment dial 114, which is utilized to adjust or calibrate the circuit breaker for tripping on lower levels of overload current, which may be flowing through load terminal 26, for example.
  • opening 117 the magnetic adjustment dial 116 which may be utilized to adjust or calibrate the circuit breaker trip unit for higher levels of overload current flowing through the load terminals 26.
  • FIG. 7 there is shown the front portion 106 of the case 124 in greater detail.
  • the thermal adjustment dial 114 is shown disposed in its opening 115.
  • a raised ridge 120 there is also shown a raised ridge 120, the raised ridge 120 interacts with the cover 110 in a manner which will be described hereinafter, for completing the locking arrangement between the cover 110 and the case 124. Also shown is a magnetic armature 126, the purpose of which will be described hereinafter.
  • trip unit interface surface 128 is depicted and shown in both the disassembled and assembled state.
  • Figure 9 shows a front view of the front region 106 as is clearly demonstrated by the presence of the load end 17 of the circuit breaker.
  • An earth leakage actuation button 125 which forms no part of the present invention is shown for purposes of clarity.
  • Figure 10 the obverse side of the view of Figure 9 is depicted. This is the back portion of the trip unit front portion 106. Side views of the cut outs 115 and 117 are clearly depicted, as well as the presence of the thermal adjustment dial 114 with downwardly protruding lower protrusion 114A. Once again, the raised ridge 120 is clearly depicted.
  • the armature spring 130 which is utilized to provide resistive force against the movement of the armature 126.
  • the armature spring 130 has a lower or anchor end 133, which is a fixed around or to an anchor 131 on the armature 126.
  • the trip unit interface surface 128 is once again clearly shown. The cooperation of the armature 126 and its spring 130 as well as the magnetic adjustment dial 117 will be described hereinafter.
  • FIG. 11 an exploded, orthogonal view of the elements normally disposed within the front portion 106 of the trip unit case 124, is shown.
  • the thermal adjustment dial 114 with its downwardly protruding protrusion 114A is depicted in a separated state from its opening 115.
  • a magnetic adjustment bar 134 which is fixedly disposed in the portion 106.
  • magnetic adjustment bar 134 includes a surface mounted cam rider 142 and stop nub 144. The stop nub 144 prevents further rotation of the bar 134 in a direction opposite to the direction 146 and represents the lower limit of adjustment for the magnetic armatures 126.
  • the magnetic armature's springs 130 are shown, including the lower anchor end 133 as separated from the armature anchor 131. Also shown is the upper spring end 138 which is disposable on an anchor 139 on the back of in bar 134 as viewed in Fig. 11.
  • the upper or pivot end 126A of each armature 126 is fixedly disposed for rotation in a seat (not shown) in the upper portion of the front portion 106. This member 126A provides a pivot upon which the armature 126 may rotate. Consequently, the bottom portion 126B of the armature 126 is free to angularly rotate in correspondence with magnetic flux generated by a portion of the trip unit (not shown), in a manner which will be described hereinafter.
  • the resistance to the rotation in response to the magnetic flux is provided by the spring 130. Since the upper spring end 138 is attached to a fixed part 139 of the magnetic adjustment bar 134, rotation of the magnetic adjustment bar 134 in the direction 146 will introduce more tension in the coil spring 130, thus making rotation movement of the end 126B in the direction 126C more difficult or said in another way, requiring a higher level of tripping current and thus providing a higher level of magnetic actuation.
  • the rotation of the magnetic adjustment bar 134 is a function of the location of the cam rider 142 on a cam in the magnetic adjustment dial in a manner to be described hereinafter.
  • the magnetic actuation tip 188 of the trip bar 150 which will be described in a greater detail hereinafter, is shown once again. Also shown are the openings 115 and 117. The magnetic adjustment dial 116 is shown in place. Its further construction and use will be described further hereinafter. Once again the raised ridge 120 is depicted. Also shown is the trip plunger driving coil spring 162. Also shown, more clearly in Figure 13, are trip unit fastening screws 170, the purpose of which will be described in more detail hereinafter.
  • the trip unit main body or case 124 is shown once again. Load terminal 26 is once again depicted.
  • the trip bar 150 is shown disposed in the back portion 104 of case 124.
  • the trip bar 150 includes on the bottom thereof the aforementioned magnetic tips 188. Above are shown the thermal actuation tips 294.
  • the trip bar 150 rotates on a pivot at pivot regions 290, the physical pivot is contained in portion 106.
  • the trip bar has disposed therein a trip bar spring opening 230 through which the plunger spring 162 extends in a manner which will be described hereinafter.
  • the trip bar 150 has disposed thereon two trip bar protrusions 300 for capturing a portion of the thermal adjustment member 115 (not shown).
  • Thermal adjustment member 114 has protruding downward therefrom a thermal adjustment tine 114A (Fig. 10), which is caught on trapped between the aforementioned thermal adjustment protrusions 300 in the trip bar 150. Rotation of the dial 114 will cause the tine to move around a vertical axis, thus forcing the entrapping protrusions 300 to cause the trip bar 150 to move in either direction of thermal adjustment 304. As it does, so the thermal adjustment tip 294 aligns with different regions of the bi-metal trip actuation tip 154 of the bi-metal member 152, in a manner to be described hereinafter for thusly calibrating the thermal trip characteristics.
  • FIG. 14 Also shown in Figure 14 are the magnetic surfaces of the u-shaped magnetic core member 180A. Lastly, there is shown to the left of the trip bar 150 a hole 292, which is a trip bar hole or opening for linking up with a neutral trip bar protrusion for a different embodiment of the invention.
  • FIG. 15 there is shown a rear view of the trip unit back portion 104 of the case 124.
  • the trip unit rear under-lapping lip 24X is depicted.
  • a trip unit plunger opening 172 through which the trip unit plunger 74 is driven through the back wall 242 of the casing 124 into the region of the operating mechanism 20, as shown in earlier figures. This will cause a tripping of the primary latch in the manner described previously.
  • the trip unit fastening screws 170 are shown in greater detail as is the trip unit fastening bolt 182, which will also be described in greater detail hereinafter.
  • FIG. 16 an exploded view of the back portion 104 of case 124 is depicted. Furthest out to the left in Fig. 16 are shown the trip unit securement bolts 182 the use of which will be described hereinafter. These mate with trip unit nuts 164, nuts 164 are deposed in the trip unit case 104 in manner which will be described for joining the bi-metal heater 180 to the case 124. Progressing to the right in Figure 16, the generally horizontally oriented load terminals 26 are depicted. They terminate on the right in the u-shaped bi-metal heater 180, which in turn surrounds the transversely disposed u-shaped magnetic core 180A. Further to the right is shown the trip bar 150 with its thermal tips 294 and its magnetic tips 188.
  • the trip bar protrusions 300 are clearly depicted as well as the trip bar pivot region 290. Adjustment of the trip bar calibration occurs through dial 114 through tine 114A which proceeds downwardly through the tines 300. This is utilized to slide the trip bar 150 in direction 304 to thus realign the thermal tip 294 with the bias cut bi-metal tips 154 of the bi-metal 152.
  • the opening 292 in the trip bar and the spring opening 230 are clearly shown.
  • the bi-metal tips 154 are bias cut inward from the left to the right as shown in Figure 16, so that as the tips 154 are moved further to the left, thermal tripping will occur quicker than if the tip 154 is moved further to the right.
  • the bi-metal member 152 is joined on the left to the downwardly protruding side of the bi-metal heater 180 and is sandwiched between that and a bi-metal support 156. The entire arrangement is held firmly in the case 124 by way of the aforementioned screws 170, linking up with corresponding holes in the aforementioned elements.
  • the bi-metal strip 152 will be described in more detail hereinafter.
  • the trip plunger driving coil spring 162 is clearly shown, as is the trip bar bias spring 151A which must contact the trip bar 150 below the pivot regions 290, as shown in Figure 16. Also shown is the cam indicator assembly 240, which contains as part thereof the dial 116 which protrudes through the opening 117. This arrangement will be described in greater detail hereinafter. Also shown is the plunger 74 and latch 75 therefore, which will also be described in greater detail hereinafter. The driving spring for the latch 75 is depicted at 186. Opening 115 is also depicted in the case 124. Lastly, there is shown an accessory plunger 174A which interacts through the accessory plunger opening 174 as shown in Figure 15. This is to cause tripping of the circuit breaker by way of accessory region activity.
  • FIG. 17 a more detailed view a portion of the trip unit 24 and bi-metal 52 is depicted.
  • the trip bar 150 is shown depicted with its pivot region 290 clearly indicated.
  • the trip bar magnetic actuation tip 188 is shown protruding to the left in the figure.
  • the interaction of the trip unit screws 170 with the case 124, the bi-metal support bar 156, the bi-metal 152 and the u-shaped heater portion 180 which is lastly attached to the load terminal 26.
  • a bi-metal adjustment screw 158 Disposed between the bi-metal 152 and an off-set portion of the bi-metal support 156 is a bi-metal adjustment screw 158 which may be accessed from the rear of the casing 124 at 158A.
  • trip bar spring 186 is shown seated on the right case 124 and loaded against the trip bar 150 at a region below the trip axis of rotation 290.
  • the nut and bolt arrangement 182 and 164 respectively for securing a portion of the heater 180 to the casing 124 is depicted once again.
  • a trip unit latch main body 194 having a trip unit latch top surface 191, upon which is disposed a spring seat 190, to which is fix the bottom of the trip bar coil spring 186 (not shown).
  • a spring seat 190 to which is fix the bottom of the trip bar coil spring 186 (not shown).
  • two pivot cylinders or axis 192 upon which the element 75 rotates under the influence of the spring 186 and other forces.
  • a second or rear downwardly protruding latch protrusion member 196 having a latch surface 197 on an inner vertical portion thereof.
  • On the front of the main body 194 is a disposed a beveled face 200.
  • a second beveled face 202 on the rear portion of the first downward protrusion 198.
  • Plunger 74 has a main body 210 having a front surface 203 and protruding from the left side thereof as shown in Figure 24, for example, a left side guide protrusion 212 and on the right, a right side guide groove 214. As best shown in Figure 25 there is a plunger top rear protrusion 216 and lower main body bottom protrusion 217. Disposed on top of the main body is a trip unit plunger top front protrusion 218 and below that on the bottom a bottom front protrusion 219. A trip unit plunger latch groove 220 exist between the two upward protrusions 216 and 218.
  • the plunger has a latching surface 221 and a beveled front face 222 between the front surface 203 and first top portion 218. There is also a bottom guide groove 224, best shown in Figure 24. Also depicted is a plunger coil spring seat 226 on which is seated one end of the spring 162. There is an operating mechanism tripping face 228 on the right portion of the plunger as shown in Figures 23 and 25, for example.
  • Trip bar 150 has its pivot at 290.
  • Trip bar 150 has an opening therein 230 sufficiently large to accommodate or pass the spring 162 in various modes of trip bar orientation.
  • Spring 162 is seated against spring seat 126.
  • the varied guide protrusions and guide grooves 112, 114 and 124 fit slidingly into complimentary portions of the frame casing 124.
  • the plunger latch 75 is shown in Figure 26 in a disposition of latching.
  • the plunger latch is rotationally seated at pivot 192 for rotation there about.
  • the plunger latch spring 186 bears down against the top of the plunger latch 191 around the seat 190 to maintain the bottom left portion 75A (as view in Fig. 26) of the latch 75 against the top surface 232 of the trip bar 150.
  • the trip unit plunger latching surface 221 is snuggly latched against the downward protrusion latch surface 197 of the latch 75.
  • the face portion 228 of the plunger 74 is maintained in sliding relationship against the surfaces 172 of the back wall 142 at sliding surfaces 216 and 217 of the plunger 74.
  • the trip bar 150 is rotated about its axis 290 in the direction 245, which is a first direction of rotation, the spring 162 acting through the opening 230 exerts pressure against the back wall 203 of the plunger 74.
  • the latch 75 is free to rotate downwardly in the direction 231 about the axis 192 under the influence of the spring 186 to slidingly abut the vertical wall 234 of the trip bar 150 with the front beveled surface 200 of the latch 75.
  • lower front member 198 of the latch 75 protrudes or rotates to the right.
  • the beveled portion 202 may provide an assist region for pushing the member 74 in the rightward direction.
  • the surface 203 thereof makes contact with the surface 202 thus rotating member 75 in the counter direction of 231 against the action of the spring 186 until the beveled surface 200 clears surface 234 and allows the upper surface 232 of the trip bar 150 to more to the right as the trip bar spring (not shown) forces the trip bar to rotate in the counter direction of 245 on its axis 290 to the right as shown in Figure 27.
  • the bottom of the front of the latch 75 abuts against a flat surface 236 of the trip bar 150, thus preventing further movement of the latch 75 in the rotational direction 231.
  • Assembly 240 includes a cam indicator flexible stop member 241 and cam indicator dial 116.
  • cam indicator dial 116 includes a rotatable cam indicator dial face 243 disposed above a cam indicator registered surface 244 in which are disposed cam indicator registers or detents 246.
  • the cam cylinder 248 on the bottom of which is disposed the camming surface 248A, which faces downwardly from the cam cylinder 248.
  • Surface 248A slopes anglarly downwardly around the cam cylinder 248 from a position very near the registered surface region 244 to a position at the full extent of the cam cylinder 248.
  • Figures 14, 16 and 31 show the main body 250 of the cam indicator stop member 241.
  • a flexible arm 254 which terminals inwardly at one end thereof in a register stop nub or protrusion 256.
  • Arm 254 may be viewed as a center span with two ends, one end which terminals in the nub 256 and the other end which terminals in a main body 250.
  • the other end of the main body 250 has disposed thereon a flexible stop member locator nub 252, which conveniently fits into an opening 241A in the back of the grooved seat 240A shown in Figures 14 and 16.
  • registered surface 244 of member 116 fits into member 241 to form the assembly 240 as shown in Figure 16.
  • Rotation of the dial 243 causes the register surface to rotate against the nub 256 until a detent or register 246 is reached in which case the flexible arm 254 flexes the nub 256 into the register or detent 246 thus locking a discrete position of the magnetic adjust member into place.
  • Member 241 thus provides two functions in a single unit. First, it is the support member for the rotating dial 243, and second, it also provides the register operation therefore.
  • the locator nub 252 operates to prevent the member 241 from being inserted incorrectly into or in the reversed direction in the grooved seat 240A for the member 240.
  • Bolt 158 includes a main body 268, which may be cylindrical, having a bi-metal contact nub 274 and disposed therebetween a bi-metal capture neck 272.
  • the threads on the main body member 268 are depicted at 270.
  • Neck 272 protrudes outwardly rearwardly and to the left in Figure 17, for example, to have captured thereon the bi-metal strip 152.
  • FIGS 37, 38 and 39 which correspond respectively to Figures 1, 6 and 14, a four-pole embodiment of the invention is depicted.
  • like reference symbols correspond to similar or identical elements.
  • the exception being that the reference assemblies A or AA, as the case may be, are utilized to depict and describe the new embodiments and inventions for the four-pole embodiments. Exception to this may be found in the comparison of Figure 14 to Figure 39.
  • Those elements in Figure 39 associated with trip unit 150 do not carry suffix symbols, because the trip bar 150 of Figure 39 is exactly the same as the trip bar 150 of Figure 14. That is, in both the three-pole and four-pole embodiment, the three phase trip bars are exactly the same. This constitutes an important part of the present invention.
  • FIG 39 The difference between the trip bar arrangements in Figure 39 and Figure 14 lies in the additional trip bar 150A found in Figure 39 which cooperates with trip bar 150 to make a full four-pole trip bar system in a manner to be described hereinafter.
  • removable trip unit 24A has a third hole or opening 280 on the left thereof which may be utilized to expose the dial of an additional ground current adjustment member.
  • Figure 38 which depicts the trip unit 24A, the dial member 281 corresponding to opening 280 for the ground or neutral current trip calibration is depicted in place to the left. Its operation is similar to that shown with respect to member 114AA. That is, it represents a form of thermal trip calibration.
  • Trip bar 150A has a pivotal axis 284, which generally aligns with the axis of rotation 290 for the trip bar 150.
  • Trip bar 284 is journaled into the case 124A at journals 305 and 306.
  • Trip bar 150A has disposed thereon two axial openings 307 through which axial 284 protrudes. This arrangement allows the trip bar 150A to rotate in unison with trip bar 150, where appropriate.
  • Trip bar 150A has disposed thereon a trip bar thermal actuation tip 294A, which cooperates with bias cut tip 154A on the bi-metal 152A to cause a tripping action in the manner described previously.
  • trip bar 150A when trip bar 150A is magnetically actuated to move by the top part thereof rotating out of the plane of Figure 39, the interconnection of the ground fault trip bar protrusion 308 into and through the hole or opening 292 in trip bar 150 will cause the trip bar 150 to rotate correspondingly.
  • trip bar 150A when the tip 294 of trip bar 150 rotates into the plane of Figure 39, trip bar 150A will also correspondingly rotate in conjunction therewith.
  • the nub 294A of the trip bar 150A rotates into the plane of the Figure 39, the protrusion member 308 will free itself from the hole 292 in the trip bar 150 and the trip bar 150 will not correspondingly rotate in the same direction.
  • trip bar 150 having its magnetic tip 188 rotated into the plane of Figure 39.
  • the hole 292 will rotate free of the protrusion 308 and trip bar 158 will not rotate correspondingly.
  • This allows the ground or neutral trip level to be set at specific values of: 0%, 50 to 60% or 100% of load current for tripping all four poles of the circuit breaker, but will not cause neutral tripping for any other value of phase or line current such as overload current.

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  • Breakers (AREA)
EP00116259A 1999-08-18 2000-08-08 Mehrpoliger Scutzschalter mit mehreren Auslösewellen Withdrawn EP1077459A3 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US376265 1989-07-05
US09/376,265 US6100777A (en) 1999-08-18 1999-08-18 Multi-pole circuit breaker with multiple trip bars

Publications (2)

Publication Number Publication Date
EP1077459A2 true EP1077459A2 (de) 2001-02-21
EP1077459A3 EP1077459A3 (de) 2002-01-02

Family

ID=23484314

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Application Number Title Priority Date Filing Date
EP00116259A Withdrawn EP1077459A3 (de) 1999-08-18 2000-08-08 Mehrpoliger Scutzschalter mit mehreren Auslösewellen

Country Status (4)

Country Link
US (1) US6100777A (de)
EP (1) EP1077459A3 (de)
AU (1) AU767398B2 (de)
CA (1) CA2316073A1 (de)

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CN101651069B (zh) * 2008-08-12 2011-12-28 湖北盛佳电器设备有限公司 机械式具有短路自锁功能的断路器
CN101651068B (zh) * 2008-08-12 2013-01-23 湖北盛佳电器设备有限公司 具有短路自锁功能的三相塑壳式断路器

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DE102007010944A1 (de) * 2006-06-14 2007-12-20 Moeller Gmbh Thermischer und/oder magnetischer Überlastauslöser
US7385153B1 (en) * 2007-03-28 2008-06-10 Eaton Corporation Electrical switching apparatus and trip bar therefor
AT509250A1 (de) * 2008-03-05 2011-07-15 Moeller Gebaeudeautomation Gmbh Schaltgerät
US8810983B2 (en) * 2009-04-01 2014-08-19 Asco Power Technologies, L.P. Power disconnect system and method
DE102012200922A1 (de) * 2012-01-23 2013-07-25 Siemens Aktiengesellschaft Elektrischer Schalter
WO2013130044A1 (en) * 2012-02-28 2013-09-06 Siemens Aktiengesellschaft Circuit breaker thermal-magnetic trip units and methods
DE102012216177A1 (de) * 2012-08-28 2014-03-06 Siemens Aktiengesellschaft Vorrichtung zur Justage eines Klappankers
US9406470B2 (en) 2014-02-18 2016-08-02 General Electric Company Tri-stable flexure mechanism
KR102071551B1 (ko) * 2018-02-06 2020-01-30 엘에스산전 주식회사 배선용 차단기의 전자식 트립 장치

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FR1527535A (fr) * 1966-06-23 1968-05-31 Gardy Particip App Interrupteur de puissance multipolaire
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US4467297A (en) * 1981-05-07 1984-08-21 Merlin Gerin Multi-pole circuit breaker with interchangeable magneto-thermal tripping unit

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US3185792A (en) * 1961-05-24 1965-05-25 Gen Electric Circuit breaker trip mechanism
FR1527535A (fr) * 1966-06-23 1968-05-31 Gardy Particip App Interrupteur de puissance multipolaire
US3464045A (en) * 1967-05-11 1969-08-26 Gen Electric Circuit breaker selective trip mechanism
DE1973476U (de) * 1967-07-05 1967-11-30 Stotz Kontakt Gmbh Mehrpolige schalterkombination.
US4467297A (en) * 1981-05-07 1984-08-21 Merlin Gerin Multi-pole circuit breaker with interchangeable magneto-thermal tripping unit

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101651069B (zh) * 2008-08-12 2011-12-28 湖北盛佳电器设备有限公司 机械式具有短路自锁功能的断路器
CN101651068B (zh) * 2008-08-12 2013-01-23 湖北盛佳电器设备有限公司 具有短路自锁功能的三相塑壳式断路器

Also Published As

Publication number Publication date
EP1077459A3 (de) 2002-01-02
CA2316073A1 (en) 2001-02-18
AU767398B2 (en) 2003-11-06
US6100777A (en) 2000-08-08
AU5197400A (en) 2001-03-08

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